both question are about zero and second order reaction
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The key concept is in a zero order reaction the rate constant
does not depend on initial concentration,it is constant for a
reaction.
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both question are about zero and second order
reaction
rear, of 50The decomposition of R at...
10. The thermal decomposition of phosphine (PH3) into phosphorus and molecular hydrogen is a first-order reaction:...
10. The thermal decomposition of phosphine (PH3) into phosphorus and molecular hydrogen is a first-order reaction: 4PH3(g) → P4(g) + 6H2(g) The half-life of the reaction is 35.0 s at 680°C. a) Calculate the first-order rate constant for the reaction: _______ s−1 b) Calculate the time required for 78.0 percent of the phosphine to decompose: ________ s
The rate constant for the first-order decomposition of a compound A in the reaction 2A rightarrow...
The rate constant for the first-order decomposition of a compound A in the reaction 2A rightarrow P is k = 3.6 times 10^-7 s^-1 at 25 degree C. What is the half-life of A? What will be the pressure, initially 33 kPa, at 50s, 20 min after initiation of the reaction?
9. The reaction 2A → B is second order with a rate constant of 51.0/M·min at...
9. The reaction 2A → B is second order with a rate constant of 51.0/M·min at 24°C. (a) Starting with [A]0 = 9.50 × 10−3M, how long will it take for [A]t = 3.10 × 10−3M? ______ min (b) Calculate the half-life of the reaction. _______ min 10. The thermal decomposition of phosphine (PH3) into phosphorus and molecular hydrogen is a first-order reaction: 4PH3(g) → P4(g) + 6H2(g) The half-life of the reaction is 35.0 s at 680°C. a) Calculate...
The first order decomposition of HI(g) at a given temperature has a half-life of 5.453 x...
The first order decomposition of HI(g) at a given temperature has a half-life of 5.453 x 101 seconds. What is the rate constant for HI(g)?
At 427 oC the decomposition of hydrogen iodide is second order, according to the following equation:...
At 427 oC the decomposition of hydrogen iodide is second order, according to the following equation: 2Hl -> H2 +I2 In an experiment the initial [Hl]0 = 2.20 M and the rate constant is 0.00142 M-1 s-1. a) What is the half life in seconds? b) How much Hl remains after 3600 seconds have passed? c) How many minutes would it take for a concentration of 1.35 M Hl to decompose to 0.8253 M?
The half-life for the second-order decomposition of HI is 15.4 5 when the initial concentration of...
The half-life for the second-order decomposition of HI is 15.4 5 when the initial concentration of His 0.67 M. What is the rate constant for this reaction? TT T Arial V3 (12pt) T-E- E- 225
6) The rate constant for the first-order decomposition of N2O5 in the reaction 2N2O5(g) → 4NO2(g)...
6) The rate constant for the first-order decomposition of N2O5 in the reaction 2N2O5(g) → 4NO2(g) + O2(g) is k=3.38 x 10-5 s-1 at 25°C. What is the half-life of N2O5? What will be the total pressure, initially 88.3 kPa for the pure N2O5 vapour, (a) 10 s, (b) 10 minutes after initiation of the reaction?
can I please get help with this question. thanks 70) The thermal decomposition of phosphine (PHs)...
can I please get help with this question. thanks
70) The thermal decomposition of phosphine (PHs) into phosphorus and molecular hydrogen is a first-order reaction: 4PH)(g)-→ P,(g) + 6H2(g) The half-life of the reaction is 30.0 s at 682°C. Calculate (a) the first-order rate constant for the reaction and (b) the time required for 85 percent of the phosphine to decompose.
The decomposition of dimethyl ether at 504°C is a first order reaction with a half-life of...
The decomposition of dimethyl ether at 504°C is a first order reaction with a half-life of 27.0 min. (CH₃)₂O(g) → CH₄(g) + H₂(g) + CO(g) A reaction vessel is charged with dimethyl ether at an initial pressure of 725 torr, and the reaction is initiated by rapidly heating the vessel to 504°C. Assuming a negligible time lag in beginning the reaction, what will the total gas pressure be in the vessel after 80.0 min? (assume ideal behavior)
Sav The thermal decomposition of acetaldehyde, CH3CHO -- CH4 + Co, is a second-order reaction with...
Sav The thermal decomposition of acetaldehyde, CH3CHO -- CH4 + Co, is a second-order reaction with a rate constant of 6.67 x 10-2 M1s1 Starting with 1.00 M acetaldehyde, what is the half-life of this reaction? a. 7.0 5 b. 0.033s c. 0.067 s d. 1.0 x 10's e. 155 What is the boiling point of a solution containing 0.852 g naphthalene (C10H8, Molar Mass 128.2 g/mol) a nonvolatile, nonelectrolyte dissolved in 14.0 g benzene (Molar Mass = 78.1 g/mol)?...
The rate constant for the first-order decomposition of a compound A in the reaction 2A rightarrow P is k = 3.6 times 10^-7 s^-1 at 25 degree C. What is the half-life of A? What will be the pressure, initially 33 kPa, at 50s, 20 min after initiation of the reaction?
The half-life for the second-order decomposition of HI is 15.4 5 when the initial concentration of His 0.67 M. What is the rate constant for this reaction? TT T Arial V3 (12pt) T-E- E- 225
can I please get help with this question. thanks
70) The thermal decomposition of phosphine (PHs) into phosphorus and molecular hydrogen is a first-order reaction: 4PH)(g)-→ P,(g) + 6H2(g) The half-life of the reaction is 30.0 s at 682°C. Calculate (a) the first-order rate constant for the reaction and (b) the time required for 85 percent of the phosphine to decompose.
Sav The thermal decomposition of acetaldehyde, CH3CHO -- CH4 + Co, is a second-order reaction with a rate constant of 6.67 x 10-2 M1s1 Starting with 1.00 M acetaldehyde, what is the half-life of this reaction? a. 7.0 5 b. 0.033s c. 0.067 s d. 1.0 x 10's e. 155 What is the boiling point of a solution containing 0.852 g naphthalene (C10H8, Molar Mass 128.2 g/mol) a nonvolatile, nonelectrolyte dissolved in 14.0 g benzene (Molar Mass = 78.1 g/mol)?...
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